Recording scale



E. RECORDING SCALE Filed July 9, 1925 May 17, 1927.

MII

-lhlllflllllfih www 5 27 i ZZ @19 y ad@ 'Patented M'ay 17, 1927.

UNITED STATES BARRY MAONUTT, OF GLOUCESTER, MASSACHUSETTS.

RECORDING SCALE.

Application led July 9, 1925. Serial No. 42,493.

This invention relates to weighing apparatus and more particularly to automatic, recording, weighing devices of the electrlc type.

It is avgeneral object of the present invention to provide a novel and improved form of apparatus for rapidly and automatically determining and recording the weight of various objects, particularly such things as loaded freight and coal cars.

More particularly it is an object of the present invention to provide a weighing device in which the load is balanced by an electro-magnet.

Another object of this invention consists in the provision of a weighing device in which the load is automatically balanced byan electro-magnet, the exciting current of which is adjusted according to the position of the scale beam. A

A further object of the present invention consists in the provision of a recording ammeter in the circuit of the balancing magnet of an automatic weighing device, together with `means to prevent operation of said ammeter except upon the obtaining of an exact balance of the load.

Other and further objects of the invention will be apparent to those skilled in the art after a consideration of the attached drawing and following specification wherein is disclosed a single exemplary embodi- `ment of the invention with the understanding, however, that various changes may be made in the details thereof without departing from the spirit of the invention or the scope of the attached claims.

In the drawing the single ligure is a diagrammatic and schematic representation of an automatic, recording. weighing device according to the present invention.

For rapidly weighing and recording the weight of a large number of objects. an automatic weighing and recording scale is highly desirable. It has heretofore been proposed to use electricity to apply and remove vveights from the beam of a scale to automatically obtain a balance. but the present invention contemplates eliminating weights'entirely and obtaining the balanceV electromagnetically.

Since the pull on the plunger of a solenoid is proportional to the magnetic field thereof and since this field is proportional to the r current flowing in the windings, the current is therefore proportional to the load on one end of a beam, the other end of which supports the solenoid plunger, the beam being, of course, fulcrumed between the ends.

iVith this in mind, a scale can be constructed as illustrated in thedrawing,wherein 10 is the beam of a scale fulcrumed in any suitable manner as at 11. The load may be applied to one end 12 of the beam in any well known manner such as, for instance, from a track platform. The opposite end of the beam has pivoted to it at 13 a link 14, which supports the core or plunger 15 operating within the solenoid 16. This solenoid is wound with a suitable number of turns of he proper size wire so that when energized by current from the source 17 it is able to attract the plunger 15 to balance any load within the'capacity of the scale.

rl`he source of current 17 is connected by wire 18 to the solenoid. the other terminal of which is connected by w'ire 19 to any suitable form of recording ammeter 20. The particular construction of this ammeter forms no part of the present invention. but it is preferred to have it calibrated' in pounds rather than amperes, which can be readily done. A wire 21 leads from the ammeter to a movable contact 22 which is adapted to slide along and contact with the turns of the rheostat or resistance 23 to adjust the flow of current through the winding of the solenoid, A wire 24 completes the circuit of the solenoid.

In order to automatically move the contact 22 to adjust the current in the solenoid to eifect a balance of the scale, it is mounted for movement by a reversible electric motor 25. Any desired method of moving the contact by means of the motor may be used` but for the sake of simplicity it is shown as mounted on a threaded sleeve 2G carried by the threaded shaft 27 extending from the motor 25.

The motor 25 is supplied with current from any suitable source, such as 28, through any conventional reversing switch such as 32 before a pair of electro-magnets 33 and- 84, each adapted to act on one end thereof to thus move the switch arms 'to one or the other of their effective positions.

@ne of the other of the magnets is energized from the source of current 35 depending upon whether the beam 10 is in its maximum upper-or lower position. rllhe source of current 35 is grounded at one end and connected 'to the beam at the other by a dexible lead 36. 'llhe solenoid end of the beam, which is formed of conducting material, carries the contact spring 37 movable loetween the stationary contacts 38 and 39. The lcontacts are connected respectively by wires 40 and 41 with the windings of 'thc magnets 33 and 34. The opposite ends of the windings of the magnets are grounded as at 42 or otherwise suitably connected back to the source 35.

From the above it will be seen that when the beam is in the position shown in 'the tigure, the load is overbalanced by the pull otl the solenoid and the spring 37 engages with the contact 39 to energize the magnet 34 from the source of current 35, thereby attracting 'the lower end offthe armature 31 and through the link 30 moving the reversing switch to the position shown vto thus drive the motor in such a direction as to.

motor 25.

In case the load placed on the platform is greater than the one prelviously weighed, the left end of the beam will be pulled down making contact between the spring 37 and 1 winding shunted bythe armature 44 of the 'the contact 38 to thus energize-the magnet 33, thereby attracting the upper end of the armature 31 and starting the motor 25 in such a direction as to reduce the resistance in the solenoid circuit until a balance is obtained when 'the motor will be stopped as beore by the spring 37 being drawn away from the contact 38.

Therecording ammeter normally has its relay 45 as shown, in order that during the balancing operation, it is prevented from recording. However, upon obtaining a balance the spring 37 engages the contact 46 to thus energize the relay 45 from the source of current 35 thus lifting the armature 44 and placing the winding of the recordingammeter 20 in the solenoid circuit to cause it to record the weighton the scale platform.

Since there mav be some fiuctuation of the beam before a balance is obtained, the relay 45 is made slow pullup,.such as by theslug of copper 47 on its core so thatit will not act to allow a recording of weight upon a mere passage of the spring 37,0ver the contact 46.

If it should -be found desirable, the b alance may be obtained A,by hand by turning reageer vthe knob 43 on the end' of the screw 27 to regulate the amount of resistance 23 in the sqlenoid circuit. `Whichever process is used, however, it is only necessary to have the solenoid and beam contacts at the scale, the other parts of the device being capable of being operated remotely from the plat-form.

l'f desired, switches 49, 50 and 51 may be placed in the several circuits so that they can be deenergized when the device is not in use.

lWhat is claimed is:

1. Automatic weighing apparatus comprising, in combination, a beam fulcrumed between its ends, means to apply an article to' be weighed to one end of said beam,a

magnetic core securedto the other end ot" said beam, a solenoid winding surrounding said core, a source of electricity connected in circuit with said winding, an adjustable resistance in said circuit, means toV adjust said resistance to balance the load on said beam by electromagnetic attractionl of said core, a recording ammeter and means to connectsaid ammeter in said circuit upon the obtaining. of a balance.

2. Automatic weighing apparatus comrising incombination a beam fulcrumed between its ends, `means thereon to Support an article to be weighed, a magnetic core secured to said beam at the opposite Aside of said fulcrum from said supporting means, a solenoid winding surrounding said core, a source of electricity connected in circuit with said winding, a contact movable with' said beam, a stationary contact adapted to be engaged by said movable contact at the limit of movement of said beam in one direction, a second stationary contact adapted to, be engaged by said movable contact at the other limit of movement of saidbeam, a circuit for each stationar contact adapted to be closed by said movabl controlled by each circuit to respectively increase and decrease the How of-current in said solenoid circuit to adjust the electromagnetic attraction of said solenoid to balance said beam, current recording means in said solenoid circuit and means to render said recording means inefective except upon occurrence of a balance of said beam.

3. Automatic weighing apparatus comprising, in combination, a fulcrumed beam,

means at one end thereof to support an artie contact, means i nemesi I to a normal position and adapted to be moved by either maofnet from said normal position, an adjustable resistance in said solenoid circuit, a reversible motor adapted to adjust said resistance, a source ot' energy and a reversing switch for said motor, said switch being operatively connectedl to said armature, a recording aiiinietri' in said solenoid circuit, a relay, an armature therefor normally shunting said aiiimeter, a third stationary Contact adapted to be engaged by said movable contact at the balance vposition of said beam and. a circuit connecting said contact and relay to a source of electricity whereby said shunt is removed from said ammeter only when the electromagnetic attraction of said solenoid balances said beam.

4. Automatic v weighing apparatus coniprising, in combination, a fulcrumed beam, means at one end thereof to support an arti-f cle to be weighed, -a magnetic core at the, opposite end thereof, a solenoid winding surroundingsaid core, a soiiice of electricity connected in circuit with said winding, a contact movable with said beam, a pair of stationary contacts, each adapted to be env gaged by said movable Contact at one of the limitsof movement of said beam, a circuit including a source of energy and said movable contact for each stationary contact, a magnet in each circuit, an armature biased to a normal position and adapted to be moved by either magnet from said normal position, an adjustable resistance in said solenoid circuit, a reversible motor adapted to adjust said resistance, a source of energy and a reversing switch for said motor, said switch being operativelycoiinected to said armature, a recording ainnieter iii said solenoi'd circuit, a relay, aii armature ytherefor normally shunting said ammeter, a thirdistaltioiiary contact adapted to be engaged lby said movable Contact at the balance position of said beam and a circuit connecting said contact and relay to a source of electricity whereby saidshunt is removed from said ammeter only when the electromagnetic attraction of said solenoid balances said beam, said relay being slow acting.

In testimony whereof I afix my signature.

BARRY MAoNUTT. 

